A significant number of our tests in C accidentally use functions
without prototypes. This patch converts the function signatures to have
a prototype for the situations where the test is not specific to K&R C
declarations. e.g.,
void func();
becomes
void func(void);
This is the sixth batch of tests being updated (there are a significant
number of other tests left to be updated).
Currently, Clang on AIX uses the system assembler to generate object files from assembly. The use of `-o -` results in a file named `-` instead of output to stdout. This patch uses a temporary object file instead.
Reviewed By: DiggerLin, hubert.reinterpretcast
Differential Revision: https://reviews.llvm.org/D117587
This diff changes llvm-ifs to use unified IFS file format
and perform other renaming changes in preparation for the
merging between elfabi/ifs.
Differential Revision: https://reviews.llvm.org/D99810
Prior to this change the clang interface stubs format resembled
something ending with a symbol list like this:
Symbols:
a: { Type: Func }
This was problematic because we didn't actually want a map format and
also because we didn't like that an empty symbol list required
"Symbols: {}". That is to say without the empty {} llvm-ifs would crash
on an empty list.
With this new format it is much more clear which field is the symbol
name, and instead the [] that is used to express an empty symbol vector
is optional, ie:
Symbols:
- { Name: a, Type: Func }
or
Symbols: []
or
Symbols:
This further diverges the format from existing llvm-elftapi. This is a
good thing because although the format originally came from the same
place, they are not the same in any way.
Differential Revision: https://reviews.llvm.org/D76979
When using in-process cc1, the Clang Interface Stubs pipeline setup
exposes an ASAN bug. I am still investigating this issue but want to
green the bots for now. I don't think this is a huge issue since the
Clang Interface Stubs Driver setup code is the only code path that sets
up such a pipeline (ie N cc1's for N c files followed by another N cc1's
for to generate stub files for the same N c files).
This issue is being discussed in https://reviews.llvm.org/D69825.
If a resolution is not found soon, a bugzilla filling will be in order.
Darwin adds an extra '_' before every C/global function mangled name and
because of this, this test was breaking on Darwin.
This is a fix for commit: https://reviews.llvm.org/D71301
Built libdispatch with clang interface stubs. Ran into some block
related issues. Basically VarDecl symbols can leak out because I wasn't
checking the case where a VarDecl is contained inside a BlockDecl
(versus a method or function).
This patch checks that a VarDecl is not a child decl of a BlockDecl.
This patch also does something very similar for c++ lambdas as well.
Differential Revision: https://reviews.llvm.org/D71301
This patch allows for -o to be used with -c when compiling with clang
interface stubs enabled. This is because the second file will be an
intermediate ifs stubs file that is the text stub analog of the .o file.
Both get produces in this case, so two files.
Why are we doing this? Because we want to support the case where
interface stubs are used bu first invoking clang like so:
clang -c <other flags> -emit-interface-stubs foo.c -o foo.o
...
clang -emit-interface-stubs <.o files> -o libfoo.so
This should generate N .ifs files, and one .ifso file. Prior to this
patch, using -o with the -c invocation was not possible. Currently the
clang driver supports generating a a.out/.so file at the same time as a
merged ifs file / ifso file, but this is done by checking that the final
job is the IfsMerge job. When -c is used, the final job is a Compile job
so what this patch does is check to figure out of the job type is
TY_IFS_CPP.
Differential Revision: https://reviews.llvm.org/D70763
Many of the inputs to clang driver toolchain tools can be things other
than files such as -Xclang and -Xlinker arguments. For now we don't take
such tool pass-through type arguments (although having an -Xifs would be nice to
have to replace things like -emit-merged-ifs). So because for the moment
we are not doing any sort of argument pass-through, I am going to have
InterfaceStubs Merger ignore any non-file type input arguments.
Differential Revision: https://reviews.llvm.org/D70838
Third Landing Attempt (dropping any linker invocation from clang driver):
Up until now, clang interface stubs has replaced the standard
PP -> C -> BE -> ASM -> LNK pipeline. With this change, it will happen in
conjunction with it. So what when you build your code you will get an
a.out or lib.so as well as an interface stub file.
Example:
clang -shared -o libfoo.so -emit-interface-stubs ...
will generate both a libfoo.so and a libfoo.ifso. The .so file will
contain the code from the standard compilation pipeline and the .ifso
file will contain the ELF stub library.
Note: For driver-test.c I've added -S in order to prevent any bot failures on
bots that don't have the proper linker for their native triple. You could always
specify a triple like x86_64-unknown-linux-gnu and on bots like x86_64-scei-ps4
the clang driver would invoke regular ld instead of getting the error
'Executable "orbis-ld" doesn't exist!' but on bots like ppc64be and s390x you'd
get an error "/usr/bin/ld: unrecognised emulation mode: elf_x86_64"
Differential Revision: https://reviews.llvm.org/D70274
Removing this test because if I add a triple then there are link falures
on targets like ppc and s390x. If I don't add a triple then on PS4
targets the clang driver tries to invoke orbis-ld which ends up being
not found.
I am in another pickle here where if I specify a triple, I get the wrong elf
target arch on the PPC bot (error from the PPC elf Linker). To avoid this I am
going to turn this test off on the PPC bots for now.
I want this test to run end to end, but I am still having trouble with
missing linkers on the scei-ps4 bot. Will remove this test if it
continues to be a source of brittle failures. Sorry for the noise.
Second Landing Attempt:
Up until now, clang interface stubs has replaced the standard
PP -> C -> BE -> ASM -> LNK pipeline. With this change, it will happen in
conjunction with it. So what when you build your code you will get an
a.out or lib.so as well as an interface stub file.
Example:
clang -shared -o libfoo.so -emit-interface-stubs ...
will generate both a libfoo.so and a libfoo.ifso. The .so file will
contain the code from the standard compilation pipeline and the .ifso
file will contain the ELF stub library.
Differential Revision: https://reviews.llvm.org/D70274
Up until now, clang interface stubs has replaced the standard
PP -> C -> BE -> ASM -> LNK pipeline. With this change, it will happen in
conjunction with it. So what when you build your code you will get an
a.out or lib.so as well as an interface stub file.
Example:
clang -shared -o libfoo.so -emit-interface-stubs ...
will generate both a libfoo.so and a libfoo.ifso. The .so file will
contain the code from the standard compilation pipeline and the .ifso
file will contain the ELF stub library.
Differential Revision: https://reviews.llvm.org/D70274
Removing -shared as it is not used on a lot of targets in order to green failing
bots with this change. Also, tiding up the windows.cpp test as the
triple compile out can look slightly different that what you specified
on a windows bot.
Unless the test is explicitly testing a driver feature if clang
interface stubs I have changed the tests to use %clang_cc1. This should
make some changes I plan to make to the driver job pipeline cause fewer
test changes and breakages.
Adding support for processing the following Decls: NonTypeTemplateParmDecl,
CXXConversionDecl, UnresolvedUsingValueDecl, UsingDecl, UsingShadowDecl,
TypeAliasTemplateDecl, TypeAliasDecl, VarTemplateDecl,
VarTemplateSpecializationDecl, UsingDirectiveDecl, TemplateTemplateParmDecl,
ClassTemplatePartialSpecializationDecl, IndirectFieldDecl.
Also, this allows for processing NamedDecls that don't have an identifier and
skips over VarDecls that are dependent on template types.
Differential Revision: https://reviews.llvm.org/D69995
Microsoft's ABI mangles names differently than Itanium and this breaks the LLVM
yaml parser unless the name is escaped in quotes. Quotes are being added to the
mangled names of the IFS file generation so that llvm-ifs doesn't break when
Windows triples are passed to the driver.
Differential Revision: https://reviews.llvm.org/D68915
llvm-svn: 374798
Special thanks to JamesNagurne who got to the bottom of this; landing this on
his behalf.
Differential Revision: https://reviews.llvm.org/D68897
llvm-svn: 374632
The clang IFS ASTConsumer was asserting on enums, records (struct definitions in
C), and typedefs. All it needs to do is skip them because the stub just needs to
expose global object instances and functions.
Differential Revision: https://reviews.llvm.org/D68859
llvm-svn: 374573
Second Landing Attempt:
This patch enables end to end support for generating ELF interface stubs
directly from clang. Now the following:
clang -emit-interface-stubs -o libfoo.so a.cpp b.cpp c.cpp
will product an ELF binary with visible symbols populated. Visibility attributes
and -fvisibility can be used to control what gets populated.
* Adding ToolChain support for clang Driver IFS Merge Phase
* Implementing a default InterfaceStubs Merge clang Tool, used by ToolChain
* Adds support for the clang Driver to involve llvm-ifs on ifs files.
* Adds -emit-merged-ifs flag, to tell llvm-ifs to emit a merged ifs text file
instead of the final object format (normally ELF)
Differential Revision: https://reviews.llvm.org/D63978
llvm-svn: 374061
It appears there are some issues with the hexagon toolchain, and also the file
path for the library file. If this doesn't fix the remaining breakages I will
attempt a revert.
llvm-svn: 373552
This patch enables end to end support for generating ELF interface stubs
directly from clang. Now the following:
clang -emit-interface-stubs -o libfoo.so a.cpp b.cpp c.cpp
will product an ELF binary with visible symbols populated. Visibility attributes
and -fvisibility can be used to control what gets populated.
* Adding ToolChain support for clang Driver IFS Merge Phase
* Implementing a default InterfaceStubs Merge clang Tool, used by ToolChain
* Adds support for the clang Driver to involve llvm-ifs on ifs files.
* Adds -emit-merged-ifs flag, to tell llvm-ifs to emit a merged ifs text file
instead of the final object format (normally ELF)
Differential Revision: https://reviews.llvm.org/D63978
llvm-svn: 373538
I've been working on a new tool, llvm-ifs, for merging interface stub files
generated by clang and I've iterated on my derivative format of TBE to a newer
format. llvm-ifs will only support the new format, so I am going to drop the
older experimental interface stubs formats in this commit to make things
simpler.
Differential Revision: https://reviews.llvm.org/D66573
llvm-svn: 369719
clang-hexagon-elf bot was failing with:
'No available targets are compatible with triple "x86_64-unknown-linux-gnu"'
Adding a "// REQUIRES: x86-registered-target" to these tests to quiet the bot.
llvm-svn: 363963
This change reverts r363649; effectively re-landing r363626. At this point
clang::Index::CodegenNameGeneratorImpl has been refactored into
clang::AST::ASTNameGenerator. This makes it so that the previous circular link
dependency no longer exists, fixing the previous share lib
(-DBUILD_SHARED_LIBS=ON) build issue which was the reason for r363649.
Clang interface stubs (previously referred to as clang-ifsos) is a new frontend
action in clang that allows the generation of stub files that contain mangled
name info that can be used to produce a stub library. These stub libraries can
be useful for breaking up build dependencies and controlling access to a
library's internal symbols. Generation of these stubs can be invoked by:
clang -fvisibility=<visibility> -emit-interface-stubs \
-interface-stub-version=<interface format>
Notice that -fvisibility (along with use of visibility attributes) can be used
to control what symbols get generated. Currently the interface format is
experimental but there are a wide range of possibilities here.
Currently clang-ifs produces .ifs files that can be thought of as analogous to
object (.o) files, but just for the mangled symbol info. In a subsequent patch
I intend to add support for merging the .ifs files into one .ifs/.ifso file
that can be the input to something like llvm-elfabi to produce something like a
.so file or .dll (but without any of the code, just symbols).
Differential Revision: https://reviews.llvm.org/D60974
llvm-svn: 363948
This reverts commit rC363626.
clangIndex depends on clangFrontend. r363626 adds a dependency from
clangFrontend to clangIndex, which creates a circular dependency.
This is disallowed by -DBUILD_SHARED_LIBS=on builds:
CMake Error: The inter-target dependency graph contains the following strongly connected component (cycle):
"clangFrontend" of type SHARED_LIBRARY
depends on "clangIndex" (weak)
"clangIndex" of type SHARED_LIBRARY
depends on "clangFrontend" (weak)
At least one of these targets is not a STATIC_LIBRARY. Cyclic dependencies are allowed only among static libraries.
Note, the dependency on clangIndex cannot be removed because
libclangFrontend.so is linked with -Wl,-z,defs: a shared object must
have its full direct dependencies specified on the linker command line.
In -DBUILD_SHARED_LIBS=off builds, this appears to work when linking
`bin/clang-9`. However, it can cause trouble to downstream clang library
users. The llvm build system links libraries this way:
clang main_program_object_file ... lib/libclangIndex.a ... lib/libclangFrontend.a -o exe
libclangIndex.a etc are not wrapped in --start-group.
If the downstream application depends on libclangFrontend.a but not any
other clang libraries that depend on libclangIndex.a, this can cause undefined
reference errors when the linker is ld.bfd or gold.
The proper fix is to not include clangIndex files in clangFrontend.
llvm-svn: 363649
Clang interface stubs (previously referred to as clang-ifsos) is a new frontend
action in clang that allows the generation of stub files that contain mangled
name info that can be used to produce a stub library. These stub libraries can
be useful for breaking up build dependencies and controlling access to a
library's internal symbols. Generation of these stubs can be invoked by:
clang -fvisibility=<visibility> -emit-interface-stubs \
-interface-stub-version=<interface format>
Notice that -fvisibility (along with use of visibility attributes) can be used
to control what symbols get generated. Currently the interface format is
experimental but there are a wide range of possibilities here.
Differential Revision: https://reviews.llvm.org/D60974
llvm-svn: 363626